# Copyright 2009 Shikhar Bhushan
# Copyright 2011 Leonidas Poulopoulos
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#    http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

"""This module is a thin layer of abstraction around the library. It exposes all core functionality."""

import capabilities
import operations
import transport

import logging

from ncclient.xml_ import *

logger = logging.getLogger('ncclient.manager')

OPERATIONS = {
    "get": operations.Get,
    "get_config": operations.GetConfig,
    "dispatch": operations.Dispatch,
    "edit_config": operations.EditConfig,
    "copy_config": operations.CopyConfig,
    "validate": operations.Validate,
    "commit": operations.Commit,
    "discard_changes": operations.DiscardChanges,
    "delete_config": operations.DeleteConfig,
    "lock": operations.Lock,
    "unlock": operations.Unlock,
    "close_session": operations.CloseSession,
    "kill_session": operations.KillSession,
    "poweroff_machine": operations.PoweroffMachine,
    "reboot_machine": operations.RebootMachine,
}
"""Dictionary of base method names and corresponding :class:`~ncclient.operations.RPC` subclasses. It is used to lookup operations, e.g. `get_config` is mapped to :class:`~ncclient.operations.GetConfig`. It is thus possible to add additional operations to the :class:`Manager` API."""

VENDOR_OPERATIONS = {}

def make_device_handler(device_params):
    """
    Create a device handler object that provides device specific parameters and
    functions, which are called in various places throughout our code.

    If no device_params are defined or the "name" in the parameter dict is not
    known then a default handler will be returned.

    """
    if device_params is None:
        device_params = {}

    device_name = device_params.get("name", "default")
    # Attempt to import device handler class. All device handlers are
    # in a module called "ncclient.devices.<devicename>" and in a class named
    # "<devicename>DeviceHandler", with the first letter capitalized.
    class_name          = "%sDeviceHandler" % device_name.capitalize()
    devices_module_name = "ncclient.devices.%s" % device_name
    dev_module_obj      = __import__(devices_module_name)
    handler_module_obj  = getattr(getattr(dev_module_obj, "devices"), device_name)
    class_obj           = getattr(handler_module_obj, class_name)
    handler_obj         = class_obj(device_params)
    return handler_obj

def connect_ssh(*args, **kwds):
    """Initialize a :class:`Manager` over the SSH transport. For documentation of arguments see :meth:`ncclient.transport.SSHSession.connect`.

    The underlying :class:`ncclient.transport.SSHSession` is created with :data:`CAPABILITIES`. It is first instructed to :meth:`~ncclient.transport.SSHSession.load_known_hosts` and then  all the provided arguments are passed directly to its implementation of :meth:`~ncclient.transport.SSHSession.connect`.

    To invoke advanced vendor related operation add device_params = {'name':'<vendor_alias>'} in connection paramerers. For the time, 'junos' and 'nxos' are supported for Juniper and Cisco Nexus respectively.
    """
    # Extract device parameter dict, if it was passed into this function. Need to
    # remove it from kwds, since the session.connect() doesn't like extra stuff in
    # there.
    if "device_params" in kwds:
        device_params = kwds["device_params"]
        del kwds["device_params"]
    else:
        device_params = None

    device_handler = make_device_handler(device_params)
    device_handler.add_additional_ssh_connect_params(kwds)
    global VENDOR_OPERATIONS
    VENDOR_OPERATIONS.update(device_handler.add_additional_operations())
    session = transport.SSHSession(device_handler)
    session.load_known_hosts()

    session.connect(*args, **kwds)
    return Manager(session, device_handler, **kwds)

connect = connect_ssh
"Same as :func:`connect_ssh`, since SSH is the default (and currently, the only) transport."

class OpExecutor(type):

    def __new__(cls, name, bases, attrs):
        def make_wrapper(op_cls):
            def wrapper(self, *args, **kwds):
                return self.execute(op_cls, *args, **kwds)
            wrapper.func_doc = op_cls.request.func_doc
            return wrapper
        for op_name, op_cls in OPERATIONS.iteritems():
            attrs[op_name] = make_wrapper(op_cls)
        return super(OpExecutor, cls).__new__(cls, name, bases, attrs)

    def __call__(cls, *args, **kwargs):
        def make_wrapper(op_cls):
            def wrapper(self, *args, **kwds):
                return self.execute(op_cls, *args, **kwds)
            wrapper.func_doc = op_cls.request.func_doc
            return wrapper
        if VENDOR_OPERATIONS:
            for op_name, op_cls in VENDOR_OPERATIONS.iteritems():
                setattr(cls, op_name, make_wrapper(op_cls))
        return super(OpExecutor, cls).__call__(*args, **kwargs)


class Manager(object):

    """For details on the expected behavior of the operations and their parameters refer to :rfc:`4741`.

    Manager instances are also context managers so you can use it like this::

        with manager.connect("host") as m:
            # do your stuff

    ... or like this::

        m = manager.connect("host")
        try:
            # do your stuff
        finally:
            m.close_session()
    """

    __metaclass__ = OpExecutor
    def __init__(self, session, device_handler, timeout=30, *args, **kwargs):
        self._session = session
        self._async_mode = False
        self._timeout = timeout
        self._raise_mode = operations.RaiseMode.ALL
        self._device_handler = device_handler

    def __enter__(self):
        return self

    def __exit__(self, *args):
        self.close_session()
        return False

    def __set_timeout(self, timeout):
        self._timeout = timeout

    def __set_async_mode(self, mode):
        self._async_mode = mode

    def __set_raise_mode(self, mode):
        assert(mode in (operations.RaiseMode.NONE, operations.RaiseMode.ERRORS, operations.RaiseMode.ALL))
        self._raise_mode = mode

    def execute(self, cls, *args, **kwds):
        return cls(self._session,
                   device_handler=self._device_handler,
                   async=self._async_mode,
                   timeout=self._timeout,
                   raise_mode=self._raise_mode).request(*args, **kwds)

    def locked(self, target):
        """Returns a context manager for a lock on a datastore, where *target* is the name of the configuration datastore to lock, e.g.::

            with m.locked("running"):
                # do your stuff

        ... instead of::

            m.lock("running")
            try:
                # do your stuff
            finally:
                m.unlock("running")
        """
        return operations.LockContext(self._session, target)

    def scp(self):
        return self._session.scp()

    def session(self):
        raise NotImplementedError

    def __getattr__(self, method):
        """Parse args/kwargs correctly in order to build XML element"""
        def _missing(*args, **kwargs):
            m = method.replace('_', '-')
            root = new_ele(m)
            if args:
                for arg in args:
                    sub_ele(root, arg)
            r = self.rpc(root)
            return r
        return _missing


    @property
    def client_capabilities(self):
        """:class:`~ncclient.capabilities.Capabilities` object representing the client's capabilities."""
        return self._session._client_capabilities

    @property
    def server_capabilities(self):
        """:class:`~ncclient.capabilities.Capabilities` object representing the server's capabilities."""
        return self._session._server_capabilities

    @property
    def channel_id(self):
        return self._session._channel_id

    @property
    def channel_name(self):
        return self._session._channel_name

    @property
    def session_id(self):
        """`session-id` assigned by the NETCONF server."""
        return self._session.id

    @property
    def connected(self):
        """Whether currently connected to the NETCONF server."""
        return self._session.connected

    async_mode = property(fget=lambda self: self._async_mode, fset=__set_async_mode)
    """Specify whether operations are executed asynchronously (`True`) or synchronously (`False`) (the default)."""

    timeout = property(fget=lambda self: self._timeout, fset=__set_timeout)
    """Specify the timeout for synchronous RPC requests."""

    raise_mode = property(fget=lambda self: self._raise_mode, fset=__set_raise_mode)
    """Specify which errors are raised as :exc:`~ncclient.operations.RPCError` exceptions. Valid values are the constants defined in :class:`~ncclient.operations.RaiseMode`. The default value is :attr:`~ncclient.operations.RaiseMode.ALL`."""
